Sessions/Tracks

Wind Power as a substitute to burning fossil fuels, is abundant, renewable, widely circulated, clean, produces no hothouse gas radiations during operation, and uses little land. The net effects on the troposphere are far fewer difficult than those of non-renewable power sources. Wind farms consist of many individual wind turbines which are associated to the electric power statement network. Onshore wind is an economical source of electricity, reasonable with or in many places inexpensive than coal or gas plants. Offshore wind is securer and stronger than on property, and offshore farms have less pictorial impact, but construction and maintenance costs are considerably higher. Slight Onshore wind farms can nourish several energy into the grid or offer electricity to isolated off-grid locations.

A wind farm or wind park is a congress of wind turbines in the same location used to produce electricity. A large wind farm may consist of numerous hundred specific wind turbines and cover an protracted area of hundreds of square miles, but the property amid the turbines may be used for agricultural or other resolutions. A wind farm can also be placed offshore. Many of the biggest operational onshore wind farms are located in Germany, China and the United States. For case, the main wind farm in the world, Gansu Wind Farm in China has an ability of over 6,000 MW of power in 2012 with an object of 20,000 MW by 2020. The Alta Wind Energy Hub in California, United States is the largest onshore wind farm outside of China, with a capability of 1,020 MW. As of April 2013, the 630 MW London Display in the UK is the leading offshore wind farmhouse in the world, monitored by the 504 MW Greater Gabbard wind farm in the UK.

New floating wind turbine concepts are being developed and demonstration projects provide the first steps towards small generating arrays comprising a handful of turbines. This in turn will spark further research and innovation, and provide insight into how to combine technologies and further optimize designs. Many coastal areas of the world the waters are too deep for this technology. The multi-patented wind turbine without blades is able to capture the kinetic wind energy by 'vortex shedding' and transform it into electricity. This new technology seeks to overcome issues related to traditional wind turbines such as maintenance, amortization, noise, environmental impact, logistics, and visual aspects.

All Energy 2018, SECC, Glasgow; Solar Power Northeast, 2018, Boston, MA; Renewable energy is generally defined as energy that is collected from resources which are naturally replenished on a human timescale, such as sunlight, wind, rain, tides, waves, and geothermal heat. Renewable energy often provides energy in four important areas: electricity generation, air and water heating/cooling, transportation, and rural (off-grid) energy services. Sustainable energy is energy obtained from non-exhaustible resources. By definition, sustainable energy serves the needs of the present without compromising the ability of future generations to meet their needs.

Wind energy is a clean and renewable source of energy which can be utilized in meeting the increasing demand for electrical energy. International Energy Agency (IEA) has identified it as key element to reduce fossil fuel dependency and helpful tool to combat global warming. But thera are some challenges & issues that are faced in promoting wind energy power plants including social, environmental and techno-economic impacts.

Energy access is about providing modern energy services to everyone around the world. These services are defined as household access to electricity and clean cooking facilities.Alternative energy is any energy source that is an alternative to fossil fuel. These alternatives are intended to address concerns about such fossil fuels, such as its high carbon dioxide emissions, an important factor in global warming. Marine energy, hydroelectric, wind, geothermal land, solar power are all alternative sources of energy.

Hydropower, or hydroelectric power, is the most common and least expensive source of renewable electricity in the United States today. According to the Energy Information Administration, more than 6% of the country's electricity was produced from hydropower resources in 2008, and about 70% of all renewable electricity generated in the United States came from hydropower resources. Ocean Energy is a world leader in Innovative Renewable Energy within the wave energy industry. Wave technology is one of the most exciting areas of untapped energy potential and Ocean Energy have developed ground breaking technology to harness the power of the ocean.

Solar Canada 2017, Toronto, Ontorio;All Energy 2018, SECC, Glasgow; Solar Power Northeast, 2018, Boston, MA; Solar energy is the cleanest, most abundant renewable energy source available. The U.S. has some of the world’s richest solar resources. Today's technology allows us to harness this resource in several ways, giving the public and commercial entities flexible ways to employ both the light and heat of the sun. Solar energy can be deployed through distributed generation (DG), whereby the equipment is located on rooftops or ground-mounted arrays close to where the energy is used. Some solar technologies can also be built at utility-scale to produce energy as a central power plant.

Bioenergy is renewable energy made available from materials derived from biological sources. A biofuel is a fuel that is produced through contemporary biological processes, such as agriculture and anaerobic digestion, rather than a fuel produced by geological processes such as those involved in the formation of fossil fuels, such as coal and petroleum, from prehistoric biological matter.

Nuclear power is the use of nuclear reactions that release nuclear energy to generate heat, which most frequently is then used in steam turbines to produce electricity in a nuclear power plant. The term includes nuclear fission, nuclear decay and nuclear fusion. Fusion power is energy generated by nuclear fusion, or more broadly, the use of that power as an energy source. Fusion has a number of advantages over fission as a source of power, including reduced radioactivity, ample fuel supplies, and increased safety.

Graphene is a material that has gathered tremendous popularity in recent years, due to its extraordinary strength and light weight. It can be generated by literally peeling it off from graphite, or by growing it on top of various materials, which makes its production cost-effective. Studies have hinted that graphene can also be used as a photovoltaic material, turning light into electricity. A new study has revealed that tweaking graphene allows it to generate two electrons for every photon of light it receives. This could double the amount of electricity currently converted in photovoltaic devices.

One of the biggest drawbacks with modern solar power devices is their efficiency: even the most advanced devices only absorb a fraction of the incoming solar radiation, and can only a fraction of that radiation is converted into electricity. Most solar power generators in use today are solar cells, which use long, thin crystals of silicon to convert sunlight into an electric potential. These can absorb a maximum of about 48 percent of incoming solar radiation, about half of which can be converted into electricity. However, recent studies have shown that nanotechnology could be able to dramatically increase the absorptivity of solar cells, by replacing the crystalline silicon in solar cells with nanostructured silicon.

Waste-to-energy or energy-from-waste is the process of generating energy in the form of electricity and/or heat from the primary treatment of waste. WtE is a form of energy recovery. Most WtE processes produce electricity and/or heat directly through combustion, or produce a combustible fuel commodity, such as methane, methanol, ethanol or synthetic fuels.

Energy conservation refers to the reducing of energy consumption through using less of an energy service. Energy conservation differs from efficient energy use, which refers to using less energy for a constant service. Driving less is an example of energy conservation. Driving the same amount with higher mileage vehicle is an example of energy efficiency. Energy conservation and energy efficiency are both energy reduction techniques. Even though energy conservation reduces energy services, it can result in increased environmental quality, nation security, personal financial security and higher savings. It is at the top of the sustainable energy hierarchy. It also lowers energy costs by preventing future resource depletion.

Renewable energy commercialization involves the deployment of three generations of renewable energy technologies dating back more than 100 years. First-generation technologies, which are already mature and economically competitive, include biomass, hydroelectricity, geothermal power and heat. Second-generation technologies are market-ready and are being deployed at the present time; they include solar heating, photovoltaic, wind power, solar thermal power stations, and modern forms of bioenergy. Third-generation technologies require continued R&D efforts in order to make large contributions on a global scale and include advanced biomass gasification, hot-dry-rock geothermal power, and ocean energy.

Energy development is the field of activities focused on obtaining sources of energy from natural resources. These activities include production of conventional, alternative and renewable sources of energy, and for the recovery and reuse of energy that would otherwise be wasted. Energy conservation and efficiency measures reduce the demand for energy development, and can have benefits to society with improvements to environmental issues.

Market Analysis

Renewable energy tools are getting cheaper, through technological change and through the benefits of mass production and market competition. A 2011 IEA report said: "A portfolio of renewable energy skills is becoming cost-competitive in an progressively broad range of circumstances, in some cases providing investment opportunities without the need for specific economic support," and added that "cost reductions in critical expertise, such as wind and solar, are set to continue." As of 2011, there have been considerable reductions in the cost of solar and wind technologies. Renewable energy is also the most economical solution for new grid-connected capacity in areas with good assets. As the cost of renewable power falls, the scope of economically viable submissions increases. Renewable tools are now often the most economical solution for new producing capacity. Where "oil-fired generation is the predominant power generation source (e.g. on islands, off-grid and in some countries) a lower-cost renewable solution almost always exists today". As of 2012, renewable power generation technologies accounted for around half of all new power generation capacity additions globally. In 2011, additions included 41 giga watt (GW) of new wind power capacity, 30 GW of PV, 25 GW of hydro-electricity, 6 GW of biomass, 0.5 GW of CSP, and 0.1 GW of geothermal power.

Why to attend?

With members from around the world concentrated on the ground of Wind Energy; this is your single best opportunity to reach the largest assembly of participants from the global energy sector Conduct demonstrations, distribute information, meet with current and potential turbines traders, make a splash with a new product line, and receive name recognition at this 3-days event. World-renowned speakers, the most recent techniques, tactics, and the newest updates in Wind energy fields are hallmarks of this conference. Conference brings together experts, researchers, scholars and students from all areas of Electrical Engineering, Electronics, Control Engineering, Mechanics and other related areas, Wind energy associations, Turbine traders, generating and planning professionals, Developers, Contractors, planning and Design, Consultancy, Turbines and controllers manufacturers.

Why London??

London is the capital and most populous city of England, United Kingdom and the European Union. Standing on the River Thames, London has been a major settlement for two millennia, its history going back to its founding by the Romans, who named it Londinium. London's ancient core, the City of London, largely retains its medieval boundaries and in 2011 had a resident population of 7,375, making it the smallest city in England. Since at least the 19th century, the term London has also referred to the metropolis developed around this core. The bulk of this conurbation forms the Greater London administrative area (coterminous with the London region, governed by the Mayor of London and the London Assembly.

London is a leading global city, with strengths in the arts, commerce, education, entertainment, fashion, finance, healthcare, media, professional services, research and development, tourism, and transport all contributing to its prominence. It is one of the world's leading financial centres and has the fifth-or sixth-largest metropolitan area GDP in the world depending on measurement. London is a world cultural capital.

About Conference

Conference Series warmly invites all the participants from all over the world to attend the “2nd World Congress and Exhibition on Wind & Renewable Energy” (Wind & Renewable Energy 2018) at London, U.K during June 14-15, 2018with the theme of "Power generation and Environmental Protection".

Wind energy is haul out from air flow using wind turbines to create electrical power. Wind energy as an alternative to fossil fuels, is abundant, renewable, widely distributed, clean, produces no greenhouse gas creations during operation and uses little land. The effects on the environment are usually less problematic than those from other power sources. Wind & Renewable Energy 2018 is all about Planning, Operating, Grid integration, Aero dynamic noise cancellation, Urban wind Energy promotion, and upcoming prospects of wind & Renewable energy. Wind & Renewable Energy 2018 will also include advancing international knowledge transfer in Ice observing and early protections, challenges and case studies of wind energy. Wind & Renewable Energy 2018 gets together experts, researchers, scholars and students from all areas of Wind Engineering, Electrical, Electronics Engineering, Control Engineering and other related areas, wind energy associations, creating Plant professionals, Developers, Wind turbine manufacturers.

Renewable energy is usually defined as energy that is composed from resources which are naturally refilled on a human timescale, such as sunlight, wind, rain, tides, waves, and geothermal heat. Renewable energy frequently provides energy in four important areas: electricity generation, air and water heating/cooling, transportation, and rural (off-grid) energy services. Sustainable energy is energy gained from non-exhaustible resources. By definition, sustainable energy serves the needs of the present without co-operating the ability of future generations to meet their requirements.

Conference Series Arranges 300+ Conferences Every Year across USA, Europe & Asia with support from 1000 more scientific societies and Publishes 400+ Open access journals which contains over 30000 eminent personalities, reputed scientists as editorial board members.

The global wind energy market was worth $130 billion in 2013 and $165.5 billion in 2014. The market is estimated to grow at a compound annual growth rate (CAGR) of 7.2% between 2015 and 2020 resulting in $176.2 billion in 2015 and $250 billion in 2020. The power sector is responsible for more than 40% of all carbon dioxide radiations from burning fossil fuels, and about 25% of our total greenhouse gas radiations. If we are going to make significant emission drops in the near to medium term, then we have to look at the power sector. In the period out to 2020, we don’t have excessively many selections.

Renewable energy commercialization includes the deployment of three generations of renewable energy skills dating back more than 100 years. First-generation tools, which are already mature and economically competitive, include biomass, hydroelectricity, geothermal power and heat. Second-generation tools are market-ready and are being organized at the present time; they include solar heating, photo voltaic, wind power, solar thermal power stations, and modern forms of bioenergy. Third-generation tools require continued R&D efforts in order to make large assistances on a global scale and include advanced biomass gasification, hot-dry-rock geothermal power, and ocean energy. As of 2012, renewable energy accounts for about half of new nameplate electrical capacity fixed and costs are continuing to fall.

Since the end of 2009, however, we’ve fallen back towards the Moderate scenario track. The same forces that have put the climate change programme on the back burner for the past couple of years – stagnation in most of the OECD, the lack of EU ambition to ‘fix’ its radiation trading system, fickle policy in the US and elsewhere – have contributed to slower growth in the wind energy sector – a flat market in 2010, unassertive growth in 2011 and again this year; and a very uncertain 2013 market. On the Temperate scenario track out to 2020 we would still see a collective capacity of more than 750 GW, and annual CO2 savings on the order of 1 billion tons/annum. Not insignificant, and better than the old IEA reference scenario upon which the ‘gap analysis’ is based, but not enough for wind energy to play its full part in contesting the Climate crisis.

Renewable energy tools are getting cheaper, through technological change and through the benefits of mass production and market competition. A 2011 IEA report said: "A portfolio of renewable energy skills is becoming cost-competitive in an progressively broad range of circumstances, in some cases providing investment opportunities without the need for specific economic support," and added that "cost reductions in critical expertise, such as wind and solar, are set to continue." As of 2011, there have been considerable reductions in the cost of solar and wind technologies. Renewable energy is also the most economical solution for new grid-connected capacity in areas with good assets. As the cost of renewable power falls, the scope of economically viable submissions increases. Renewable tools are now often the most economical solution for new producing capacity. Where "oil-fired generation is the predominant power generation source (e.g. on islands, off-grid and in some countries) a lower-cost renewable solution almost always exists today". As of 2012, renewable power generation technologies accounted for around half of all new power generation capacity additions globally. In 2011, additions included 41 giga watt (GW) of new wind power capacity, 30 GW of PV, 25 GW of hydro-electricity, 6 GW of biomass, 0.5 GW of CSP, and 0.1 GW of geothermal power.

Why to attend?

With members from around the world concentrated on the ground of Wind Energy; this is your single best opportunity to reach the largest assembly of participants from the global energy sector Conduct demonstrations, distribute information, meet with current and potential turbines traders, make a splash with a new product line, and receive name recognition at this 2-days event. World-renowned speakers, the most recent techniques, tactics, and the newest updates in Wind energy fields are hallmarks of this conference. Conference brings together experts, researchers, scholars and students from all areas of Electrical Engineering, Electronics, Control Engineering, Mechanics and other related areas, Wind energy associations, Turbine traders, generating and planning professionals, Developers, Contractors, planning and Design, Consultancy, Turbines and controllers manufacturers.

The World Congress and Exhibition on Wind & Renewable Energy, hosted by the Conference Series was held during July 28-30, 2016 at Berlin, Germany based on the theme “Trends in energy efficiency and renewable energy management". Benevolent response and active participation was received from the Organizing Committee Members along with Scientists, Researchers, Students and leaders from various fields of Engineering, Electrical & Electronics, Civil Engineering, who made this event a grand success.

Conference Series expresses its gratitude to the conference Moderator, namely Dr. Modour Zgoul for taking up the responsibility to coordinate during the sessions. We are indebted to your support.

A very special Thanks to our Sponsors to have bestowed and their faith and invested in us to make this event a fruitful one. We hope you continue your support in our future endeavors.

The conference was initiated with the Honorable presence of the Keynote forum. The list includes:

Manfred Mauntz, cmc Instruments GmbH, Germany

Asfaw Beyene, San Diego State University, USA

Peter Jamieson, University of Strathclyde, UK

Jae-Sung Bae, Korea Aerospace University, Korea

Syed Islam, Curtin University, Australia

David Greenblatt, Technion - Israel Institute of Technology, Israel

The meeting reflected various sessions, in which discussions were held on the following major scientific tracks:

Wind Power Technology

Wind Turbines Instrumentation

Renewable &Sustainable energy

Solar Power Technology

Wind energy Innovations

Third Generation Wind Power

Wind Turbines Impacts

Hydro Power Technology

Conference Series offers its heartfelt appreciation to organizations such as altenergymag.com, Navigant Research, Crowd Reviews, Investing.com, Modernize, Offshore wind industry and other eminent personalities who supported the conference by promoting in various modes online and offline which helped the conference reach every nook and corner of the globe.

Conference Series also took privilege to felicitate the Keynote Speakers, Organizing Committee Members, Chairs and sponsors who supported this event

With the grand success of Wind & Renewable Energy 2016, Conference Series is proud to announce the "2nd World Congress and Exhibition on Wind & Renewable Energy" to be held during June 14-15, 2018 at London, U.K.

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